Lawrence Ziomek
Fundamentals of Acoustic Field Theory and Space-Time Signal Processing
Lawrence Ziomek
Fundamentals of Acoustic Field Theory and Space-Time Signal Processing
- Gebundenes Buch
- Merkliste
- Auf die Merkliste
- Bewerten Bewerten
- Teilen
- Produkt teilen
- Produkterinnerung
- Produkterinnerung
Providing a wealth of information on fundamental topics in the areas of linear air and underwater acoustics, as well as space-time signal processing, this book provides real-world design and analysis equations
Andere Kunden interessierten sich auch für
- Julien BourgeoisTime-Domain Beamforming and Blind Source Separation89,99 €
- Julien BourgeoisTime-Domain Beamforming and Blind Source Separation75,99 €
- Michael Talbot-SmithSound Engineering Explained199,99 €
- Brian McFeeDigital Signals Theory153,99 €
- Nadder HamdyApplied Signal Processing154,99 €
- Uday B. Desai (Hrsg.)Modelling and Application of Stochastic Processes185,99 €
- J.K. Skwirzynski (ed.)The Impact of Processing Techniques on Communications108,99 €
-
-
-
Providing a wealth of information on fundamental topics in the areas of linear air and underwater acoustics, as well as space-time signal processing, this book provides real-world design and analysis equations
Produktdetails
- Produktdetails
- Verlag: CRC Press
- Seitenzahl: 706
- Erscheinungstermin: 28. Dezember 1994
- Englisch
- Abmessung: 247mm x 191mm x 45mm
- Gewicht: 1429g
- ISBN-13: 9780849394553
- ISBN-10: 0849394554
- Artikelnr.: 21817536
- Verlag: CRC Press
- Seitenzahl: 706
- Erscheinungstermin: 28. Dezember 1994
- Englisch
- Abmessung: 247mm x 191mm x 45mm
- Gewicht: 1429g
- ISBN-13: 9780849394553
- ISBN-10: 0849394554
- Artikelnr.: 21817536
Lawrence J. Ziomek
Part IACOUSTIC FIELD THEORY: The Linear Wave Equation and Fundamental
Acoustical Quantities: Equations of Motion. Equation of Continuity.
Equation of State and the Speed of Sound. Derivation of the Linear Wave
Equation. Time-Average Intensity Vector and Time-Average Power.
Sound-Pressure Level, Source Level, Transmission Loss, and Sound-Intensity
Level. Problems. Appendices. Bibliography. Wave Propagation in the
Rectangular Coordinate System: Solution of the Linear Three-Dimensional
Homogeneous Wave Equation. Free-Space Propagation. Reflection and
Transmission Coefficients. The Rectangular Cavity. Waveguide with
Rectangular Cross-Sectional Area. The Time-Independent Free-Space Green's
Function. Solution of the Linear Three-Dimensional Inhomogeneous Wave
Equation with Arbitrary Source Distribution. Integral Representations of
the Time-Independent Free-Space Green's Function in Rectangular
Coordinates. Problems. Appendices. Bibliography. Wave Propagation in the
Cylindrical Coordinate System: Solution of the Linear Three-Dimensional
Homogeneous Wave Equation. Free-Space Propagation. The Cylindrical Cavity.
Waveguide with Circular Cross-Sectional Area. Scattering by a Cylinder.
Integral Representations of the Time-Independent Free-Space Green's
Function in Cylindrical Coordinates. Reflection and Transmission of
Spherical Waves at Planar Boundaries. Waveguide Models of the Ocean: Normal
Modes. Waveguide Model of the Ocean: Full-Wave Solution. Problems.
Appendices. Bibliography. Wave Propagation in the Spherical Coordinate
System: Solution of the Linear Three-Dimensional Homogeneous Wave Equation.
Free-Space Propagation. The Spherical Cavity. Scattering by a Sphere.
Problems. Bibliography. Wave Propagation in Inhomogeneous Media: The WKB
Approximation. Ray Acoustics. The Parabolic Equation Approximation.
Problems. Appendices. Bibliography. Part IISPACE-TIME SIGNAL PROCESSING:
Complex Aperture Theory: Coupling Transmitted and Received Electrical
Signals to the
Acoustical Quantities: Equations of Motion. Equation of Continuity.
Equation of State and the Speed of Sound. Derivation of the Linear Wave
Equation. Time-Average Intensity Vector and Time-Average Power.
Sound-Pressure Level, Source Level, Transmission Loss, and Sound-Intensity
Level. Problems. Appendices. Bibliography. Wave Propagation in the
Rectangular Coordinate System: Solution of the Linear Three-Dimensional
Homogeneous Wave Equation. Free-Space Propagation. Reflection and
Transmission Coefficients. The Rectangular Cavity. Waveguide with
Rectangular Cross-Sectional Area. The Time-Independent Free-Space Green's
Function. Solution of the Linear Three-Dimensional Inhomogeneous Wave
Equation with Arbitrary Source Distribution. Integral Representations of
the Time-Independent Free-Space Green's Function in Rectangular
Coordinates. Problems. Appendices. Bibliography. Wave Propagation in the
Cylindrical Coordinate System: Solution of the Linear Three-Dimensional
Homogeneous Wave Equation. Free-Space Propagation. The Cylindrical Cavity.
Waveguide with Circular Cross-Sectional Area. Scattering by a Cylinder.
Integral Representations of the Time-Independent Free-Space Green's
Function in Cylindrical Coordinates. Reflection and Transmission of
Spherical Waves at Planar Boundaries. Waveguide Models of the Ocean: Normal
Modes. Waveguide Model of the Ocean: Full-Wave Solution. Problems.
Appendices. Bibliography. Wave Propagation in the Spherical Coordinate
System: Solution of the Linear Three-Dimensional Homogeneous Wave Equation.
Free-Space Propagation. The Spherical Cavity. Scattering by a Sphere.
Problems. Bibliography. Wave Propagation in Inhomogeneous Media: The WKB
Approximation. Ray Acoustics. The Parabolic Equation Approximation.
Problems. Appendices. Bibliography. Part IISPACE-TIME SIGNAL PROCESSING:
Complex Aperture Theory: Coupling Transmitted and Received Electrical
Signals to the
Part IACOUSTIC FIELD THEORY: The Linear Wave Equation and Fundamental
Acoustical Quantities: Equations of Motion. Equation of Continuity.
Equation of State and the Speed of Sound. Derivation of the Linear Wave
Equation. Time-Average Intensity Vector and Time-Average Power.
Sound-Pressure Level, Source Level, Transmission Loss, and Sound-Intensity
Level. Problems. Appendices. Bibliography. Wave Propagation in the
Rectangular Coordinate System: Solution of the Linear Three-Dimensional
Homogeneous Wave Equation. Free-Space Propagation. Reflection and
Transmission Coefficients. The Rectangular Cavity. Waveguide with
Rectangular Cross-Sectional Area. The Time-Independent Free-Space Green's
Function. Solution of the Linear Three-Dimensional Inhomogeneous Wave
Equation with Arbitrary Source Distribution. Integral Representations of
the Time-Independent Free-Space Green's Function in Rectangular
Coordinates. Problems. Appendices. Bibliography. Wave Propagation in the
Cylindrical Coordinate System: Solution of the Linear Three-Dimensional
Homogeneous Wave Equation. Free-Space Propagation. The Cylindrical Cavity.
Waveguide with Circular Cross-Sectional Area. Scattering by a Cylinder.
Integral Representations of the Time-Independent Free-Space Green's
Function in Cylindrical Coordinates. Reflection and Transmission of
Spherical Waves at Planar Boundaries. Waveguide Models of the Ocean: Normal
Modes. Waveguide Model of the Ocean: Full-Wave Solution. Problems.
Appendices. Bibliography. Wave Propagation in the Spherical Coordinate
System: Solution of the Linear Three-Dimensional Homogeneous Wave Equation.
Free-Space Propagation. The Spherical Cavity. Scattering by a Sphere.
Problems. Bibliography. Wave Propagation in Inhomogeneous Media: The WKB
Approximation. Ray Acoustics. The Parabolic Equation Approximation.
Problems. Appendices. Bibliography. Part IISPACE-TIME SIGNAL PROCESSING:
Complex Aperture Theory: Coupling Transmitted and Received Electrical
Signals to the
Acoustical Quantities: Equations of Motion. Equation of Continuity.
Equation of State and the Speed of Sound. Derivation of the Linear Wave
Equation. Time-Average Intensity Vector and Time-Average Power.
Sound-Pressure Level, Source Level, Transmission Loss, and Sound-Intensity
Level. Problems. Appendices. Bibliography. Wave Propagation in the
Rectangular Coordinate System: Solution of the Linear Three-Dimensional
Homogeneous Wave Equation. Free-Space Propagation. Reflection and
Transmission Coefficients. The Rectangular Cavity. Waveguide with
Rectangular Cross-Sectional Area. The Time-Independent Free-Space Green's
Function. Solution of the Linear Three-Dimensional Inhomogeneous Wave
Equation with Arbitrary Source Distribution. Integral Representations of
the Time-Independent Free-Space Green's Function in Rectangular
Coordinates. Problems. Appendices. Bibliography. Wave Propagation in the
Cylindrical Coordinate System: Solution of the Linear Three-Dimensional
Homogeneous Wave Equation. Free-Space Propagation. The Cylindrical Cavity.
Waveguide with Circular Cross-Sectional Area. Scattering by a Cylinder.
Integral Representations of the Time-Independent Free-Space Green's
Function in Cylindrical Coordinates. Reflection and Transmission of
Spherical Waves at Planar Boundaries. Waveguide Models of the Ocean: Normal
Modes. Waveguide Model of the Ocean: Full-Wave Solution. Problems.
Appendices. Bibliography. Wave Propagation in the Spherical Coordinate
System: Solution of the Linear Three-Dimensional Homogeneous Wave Equation.
Free-Space Propagation. The Spherical Cavity. Scattering by a Sphere.
Problems. Bibliography. Wave Propagation in Inhomogeneous Media: The WKB
Approximation. Ray Acoustics. The Parabolic Equation Approximation.
Problems. Appendices. Bibliography. Part IISPACE-TIME SIGNAL PROCESSING:
Complex Aperture Theory: Coupling Transmitted and Received Electrical
Signals to the